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This function makes a global comparison of two phylogenetic trees.
# S3 method for phylo
all.equal(target, current, use.edge.length = TRUE,
use.tip.label = TRUE, index.return = FALSE,
tolerance = .Machine$double.eps ^ 0.5,
scale = NULL, …)an object of class "phylo".
an object of class "phylo".
if FALSE only the topologies are
compared; the default is TRUE.
if FALSE the unlabelled trees are
compared; the default is TRUE.
if TRUE the function returns a two-column
matrix giving the correspondence between the nodes of both trees.
the numeric tolerance used to compare the branch lengths.
a positive number, comparison of branch lengths is made after scaling (i.e., dividing) them by this number.
further arguments passed to or from other methods.
A logical value, or a two-column matrix.
This function is meant to be an adaptation of the generic function
all.equal for the comparison of phylogenetic trees.
A single phylogenetic tree may have several representations in the Newick
format and in the "phylo" class of objects used in `ape'. One
aim of the present function is to be able to identify whether two
objects of class "phylo" represent the same phylogeny.
all.equal for the generic R function, comparePhylo
# NOT RUN {
### maybe the simplest example of two representations
### for the same rooted tree...:
t1 <- read.tree(text = "(a:1,b:1);")
t2 <- read.tree(text = "(b:1,a:1);")
all.equal(t1, t2)
### ... compare with this:
identical(t1, t2)
### one just slightly more complicated...:
t3 <- read.tree(text = "((a:1,b:1):1,c:2);")
t4 <- read.tree(text = "(c:2,(a:1,b:1):1);")
all.equal(t3, t4) # == all.equal.phylo(t3, t4)
### ... here we force the comparison as lists:
all.equal.list(t3, t4)
# }
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